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Journal articles on the topic 'Calcium phosphate osteoplastic materials'

Author: Grafiati
Published: 28 May 2022
Last updated: 31 July 2025

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1

Karalkin, P. A., N. S. Sergeeva, V. S. Komlev, et al. "Biocompatibility and osteoplastic properties of mineral polymer composite materials based on sodium alginate, gelatin, and calcium phosphates intended for 3D-printing of the constructions for bone replacement." Genes & Cells 11, no. 3 (2016): 94–101. http://dx.doi.org/10.23868/gc120598.

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Bone extracellular matrix comprises a unique composite compound including the mineral and organic components. Therefore, use of biomimetic approach to the formation of tissue-engineered constructions for bone defects replacement based on composite materials containing biopolymers and calcium phosphates, as expected, can significantly improve their cyto-, biocompatibility and osteoplastic properties. The aim of the work was to study the structural features, biocompatibility and osteoplastic properties of 3D-constructions based on sodium alginate, gelatin, and two types of calcium phosphates (tr
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2

Egiazaryan, K. A., G. D. Lazishvili, K. I. Akmataliev, et al. "Early Results of the Study of Reparative Peculiarities of Various Osteoplastic Materials in Experimental Bone Defects." Vestnik travmatologii i ortopedii imeni N.N. Priorova, no. 2 (June 30, 2017): 40–47. http://dx.doi.org/10.32414/0869-8678-2017-2-40-47.

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Purpose. To determine the optimum osteoplastic material for activation of reparative osteogenesis and substitution of traumatic defects in metaepiphyseal spongy bone tissue.Material and methods.Comparative experimental morphological study was performed on 12 matured male Chinchilla rabbits with body weight 2500-2800g. A model of critical defects of spongy bone tissue was used. Bone defects were filled with 3 types of osteoplastic material: composite calcium sulphate bone cement; xenogenous hydroxyapatite-based material with granulated paste of synthetic peptides (P-15); β-tricalcium phosphate-
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3

Egiazaryan, K. A., G. D. Lazishvili, K. I. Akmataliev, et al. "Early Results of the Study of Reparative Peculiarities of Various Osteoplastic Materials in Experimental Bone Defects." N.N. Priorov Journal of Traumatology and Orthopedics 24, no. 2 (2017): 40–47. http://dx.doi.org/10.17816/vto201724240-47.

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Purpose. To determine the optimum osteoplastic material for activation of reparative osteogenesis and substitution of traumatic defects in metaepiphyseal spongy bone tissue. Material and methods. Comparative experimental morphological study was performed on 12 matured male Chinchilla rabbits with body weight 2500-2800g. A model of critical defects of spongy bone tissue was used. Bone defects were filled with 3 types of osteoplastic material: composite calcium sulphate bone cement; xenogenous hydroxyapatite-based material with granulated paste of synthetic peptides (P-15); β-tricalcium phosphat
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4

Khelminskaya, Natalia M., A. P. Ettinger, V. I. Kravets, M. D. Polivoda, A. V. Goncharova, and N. M. Krasnov. "COMPARATIVE EVALUATION OF BONE TISSUE REGENERATION WITH LIMITED DEFECTS OF THE PARIETAL BONE (EXPERIMENTAL STUDY ON ANIMAL MODELS)." Medical Journal of the Russian Federation 24, no. 4 (2018): 180–84. http://dx.doi.org/10.18821/0869-2106-2018-24-4-180-184.

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At today, in practice of dental surgeons and maxillofacial surgeons offten used synthetic osteoplastic material which contain in its constitution hydroxyapatite,tricalcium phosphate, collagen, glycosaminoglycans (GAG), chondroitin sulfate, calcium sulfate and phosphate, antibacterial and anti-inflammatory drugs in various combinations and proportions. The bone replacement materialsserve as a framework on the basis of which in afterwards mature bone tissue forming. It should be noted that it is not possible to achieve full recovery of the lost bone tissue, in most cases unfinished regeneration
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5

Korzh, Mykola, Volodymyr Filipenko, Karolina Poplavska, and Nataliya Ashukina. "Materials based o tricalcium phosphate as bone defects substitute (literature review)." ORTHOPAEDICS, TRAUMATOLOGY and PROSTHETICS, no. 2 (October 12, 2021): 100–107. http://dx.doi.org/10.15674/0030-598720212100-107.

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The objective of the study is to determine the current tendencies in the use of osteoplastic materials based on tricalcium phosphate (TCP) in orthopedics and traumatology. Methods. The search of the scientific information for the analysis was carried out in the PubMed, Google Scholar, World Digital Library, ScienceDirect. Results. The development of biomaterials for reconstructive surgery on the skeleton remains an urgent issue of biomaterial engineering, biology and current traumatology and orthopedics. Calcium-phosphate ceramics have the excellent properties of biocompatibility, affinity wit
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6

Korenkov, Olexiy. "Optimization of reparative osteogenesis with using of calcium phosphate osteoplastic materials (literature review)." ORTHOPAEDICS, TRAUMATOLOGY and PROSTHETICS, no. 1 (April 2, 2014): 110. http://dx.doi.org/10.15674/0030-598720141110-116.

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7

Minaichev, Vladislav, Polina Smirnova, Anatoliy Senotov, Anastasia Teterina, and Irina Fadeeva. "Remineralization of Demineralized Bone Matrixes with Preserved Fibrillary Structure as a Promising Approach to Obtain Highly Effective Osteoplastic Materials." BIO Web of Conferences 57 (2023): 04001. http://dx.doi.org/10.1051/bioconf/20235704001.

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The development of highly effective osteoplastic materials capable of providing bone tissue regeneration still remains an urgent and unresolved problem. In the presented work, an approach is proposed for the creation of biomimetic materials by the deposition of amorphous calcium phosphates on the surface of a xenogenic bone demineralized matrix under physiological conditions. Adsorption spectroscopy and scanning electron microscopy showed the efficiency of deposition of amorphous calcium phosphates on the trabeculae surface. The additional inclusion of the calcium-binding protein albumin was f
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8

Fadeeva, Irina S., Anastasia Yu Teterina, Vladislav V. Minaychev, et al. "Biomimetic Remineralized Three-Dimensional Collagen Bone Matrices with an Enhanced Osteostimulating Effect." Biomimetics 8, no. 1 (2023): 91. http://dx.doi.org/10.3390/biomimetics8010091.

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Bone grafts with a high potential for osseointegration, capable of providing a complete and effective regeneration of bone tissue, remain an urgent and unresolved issue. The presented work proposes an approach to develop composite biomimetic bone material for reconstructive surgery by deposition (remineralization) on the surface of high-purity, demineralized bone collagen matrix calcium phosphate layers. Histological and elemental analysis have shown reproduction of the bone tissue matrix architectonics, and a high-purity degree of the obtained collagen scaffolds; the cell culture and confocal
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9

Ivanov, S. Yu, A. V. Volkov, and D. A. De. "Dynamics of reparative histogenesis of bone tissue in presence of some osteoplastic materials in vitro." Medical alphabet 4, no. 34 (2020): 46–50. http://dx.doi.org/10.33667/2078-5631-2019-4-34(409)-46-50.

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Currently, to solve the bone deficiency problem in the maxillofacial region, osteoplastic materials based on allogeneic and xenogenic collagen bone matrix are used, both in pure and in activated forms, by adding growth factors. It is impossible to determine the effectiveness and mechanisms of the osteoplastic materials effect on bone regeneration without a comprehensive study, including not only histological, but also morphometric studies of the structural components and cellular reactions in the impact area. Such studies provide reliable and objective information on the main processes taking
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10

Minaychev, Vladislav V., Anastasia Yu Teterina, Polina V. Smirnova, et al. "Composite Remineralization of Bone-Collagen Matrices by Low-Temperature Ceramics and Serum Albumin: A New Approach to the Creation of Highly Effective Osteoplastic Materials." Journal of Functional Biomaterials 15, no. 2 (2024): 27. http://dx.doi.org/10.3390/jfb15020027.

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This study examined the effectiveness of coating demineralized bone matrix (DBM) with amorphous calcium phosphate (DBM + CaP), as well as a composite of DBM, calcium phosphate, and serum albumin (DBM + CaP + BSA). The intact structure of DBM promotes the transformation of amorphous calcium phosphate (CaP) into dicalcium phosphate dihydrate (DCPD) with a characteristic plate shape and particle size of 5–35 µm. The inclusion of BSA in the coating resulted in a better and more uniform distribution of CaP on the surface of DBM trabeculae. MG63 cells showed that both the obtained forms of CaP and i
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11

Sergeeva, N. S., V. S. Komlev, I. K. Sviridova, et al. "Some physicochemical and biological characteristics of 3D printed constructions based on sodium alginate and calcium phosphates for bone defects reconstruction." Genes & Cells 10, no. 2 (2015): 39–45. http://dx.doi.org/10.23868/gc120478.

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A creation of personalized constructions for tissue engineering of bone tissue is very perspective biomedical technological trend. An aim of our work was studying physicochemical characteristics, cyto- and biocompatibility of 3D printed constructions based on sodium alginate and three calcium phosphates species (tricalcium phosphates, carbonated hydroxyapatite, and octacalcium phosphate). The methods of 3D constructions producing included 3D printing of components with crosslinking agent (CaCl2), their freezing, sublimation, “forced shrinkage”, γ-ray sterilization (15 kGr). A structure of 3D c
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12

Lykoshin, D. D., V. V. Zaitsev, M. A. Kostromina, and R. S. Esipov. "New-generation osteoplastic materials based on biological and synthetic matrices." Fine Chemical Technologies 16, no. 1 (2021): 36–54. http://dx.doi.org/10.32362/2410-6593-2021-16-1-36-54.

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Objectives. The purpose of this analytical review is to evaluate the market for osteoplastic materials and surgical implants, as well as study the features of new-generation materials and the results of clinical applications.Methods. This review summarizes the volumes of research articles presented in the electronic database PubMed and eLIBRARY. A total of 129 scientific articles related to biological systems, calcium phosphate, polymer, and biocomposite matrices as carriers of pharmaceutical substances, primary recombinant protein osteoinductors, antibiotics, and biologically active chemical
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13

Markov, Pavel А., Petr S. Eremin, Elena S. Berezkina, Marina V. Volkova, Irina A. Usova, and Ilmira R. Gilmutdinova. "Osteoplastic biomaterials from organic and mineral components of the bone matrix: a literature review." Bulletin of Rehabilitation Medicine 23, no. 5 (2024): 97–107. http://dx.doi.org/10.38025/2078-1962-2024-23-5-97-107.

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Introduction. The bones of the human and animal have a unique ability to remodel. The ability to constantly renew bone tissue determines the healing of fractures and the adaptation of bones to mechanical loads. However, the process of bone self-healing is effective only for defects of non-critical size. In segmental and critical defects, endogenous stimulation of bone tissue regeneration is required. In this regard, there remains a need to design osteoplastic biomaterials with improved pro-regenerative action. Every year, new data appear that expand our understanding of the methods and mechani
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14

Teterina, Anastasia Yu, Vladislav V. Minaychev, Polina V. Smirnova, et al. "Injectable Hydrated Calcium Phosphate Bone-like Paste: Synthesis, In Vitro, and In Vivo Biocompatibility Assessment." Technologies 11, no. 3 (2023): 77. http://dx.doi.org/10.3390/technologies11030077.

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The injectable hydrated calcium phosphate bone-like paste (hCPP) was developed with suitable rheological characteristics, enabling unhindered injection through standard 23G needles. In vitro assays showed the cytocompatibility of hCPP with mesenchymal embryonic C3H10T1/2 cell cultures. The hCPP was composed of aggregated micro-sized particles with sphere-like shapes and low crystallinity. The ability of hCPP particles to adsorb serum proteins (FBS) was investigated. The hCPP demonstrated high protein adsorption capacity, indicating its potential in various biomedical applications. The results
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15

Got, I. M., A. V. Paliy, R. M. Stupnitsky, and I. R. Stupnitsky. "PECULIARITIES OF REVASCULARIZATION (OR ANGIOGENESIS) OF THE ALVEOLAR AGES USING DIFFERENT BONE-PLASTIC MATERIALS." Ukrainian Dental Almanac, no. 2 (June 26, 2020): 53–57. http://dx.doi.org/10.31718/2409-0255.2.2020.08.

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Secondary anodontia, as a consequence of diseases of the dentoalveolar apparatus is the most common pathology among the population. The results of medical and statistical studies show an increase in the incidence of acquired anodontia in both adults and children.
 When teeth are lost, bone resorption occurs and this leads to a decrease in the thickness and height of the alveolar processes of the jaws by an average of 25-30%. In addition, there is a loss of bone walls of the dental alveolus, which causes a tissue defect. To eliminate defects and deformations of the walls of the alveolar pr
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16

Dimova, Cena. "Socket Preservation Procedure after Tooth Extraction." Key Engineering Materials 587 (November 2013): 325–30. http://dx.doi.org/10.4028/www.scientific.net/kem.587.325.

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Jaw deformities from tooth removal can be prevented and repaired by a procedure called socket preservation. Socket preservation can greatly improve the smile’s appearance and increase the chances for successful dental implants for years to come. The procedure begins with atraumatic tooth extraction. Every attempt is made to preserve the surrounding bone and soft tissue, with an emphasis on being careful not to fracture the delicate buccal plate. There are a number of techniques and instruments that aid in this process. In general, one never wants to elevate so that force is directed toward the
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17

Malysheva, Khrystyna, Konrad Kwaśniak, Iaroslav Gnilitskyi, et al. "Functionalization of Polycaprolactone Electrospun Osteoplastic Scaffolds with Fluorapatite and Hydroxyapatite Nanoparticles: Biocompatibility Comparison of Human Versus Mouse Mesenchymal Stem Cells." Materials 14, no. 6 (2021): 1333. http://dx.doi.org/10.3390/ma14061333.

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A capability for effective tissue reparation is a living requirement for all multicellular organisms. Bone exits as a precisely orchestrated balance of bioactivities of bone forming osteoblasts and bone resorbing osteoclasts. The main feature of osteoblasts is their capability to produce massive extracellular matrix enriched with calcium phosphate minerals. Hydroxyapatite and its composites represent the most common form of bone mineral providing mechanical strength and significant osteoinductive properties. Herein, hydroxyapatite and fluorapatite functionalized composite scaffolds based on el
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18

Kim, Kyung-Hoon. "The Incorporation of Platelet-rich Plasma into Calcium Phosphate Cement Enhances Bone Regeneration in Osteoporosis." Pain Physician 6;17, no. 6;12 (2014): E737—E745. http://dx.doi.org/10.36076/ppj.2014/17/e737.

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Background: Polymethyl methacrylate (PMMA) bone cement is widely used for osteoplasty. However, previous studies have demonstrated the adverse effects of PMMA due to its excessive stiffness and heat production. Recently, calcium phosphate cement (CPC) that overcomes those negative effects has been successfully applied in osteoplasty. The potential problem of CPC is markedly less initial stiffness. It leads to progressive, repeated collapse in the treated vertebra before CPC has been replaced by new bone that would provide substantial improvement in compressive strength and stiffness. The activ
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19

Tarasenko, Svetlana, Ilana Gor, Ekaterina Diachkova, and Aida Kazaryan. "EVALUTION OF THE USE OF MATERIALS BASED ON OCTACALCIUM PHOSPHATE IN SOCKET AUGMENTATION SURGERY ACCORDING TO HISTOLOGICAL DATA. CLINICAL CASE." Actual problems in dentistry 20, no. 4 (2025): 139–43. https://doi.org/10.18481/2077-7566-2024-20-4-139-143.

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Data from domestic and foreign literature indicate the need to use osteoplastic materials to restore bone tissue after tooth extraction to prevent significant atrophy of the alveolar ridge in the area of future dental implantation. At the moment, there are various types of osteoplastic materials that have become necessary in dental surgery. Osteoplastic materials are the basis for the formation of the patient’s own bone tissue. They have a number of properties that allow them to perform their main function. In this article we describe a clinical case of the use of osteoplastic material “Histog
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20

Shevchenko, A. E., A. P. Solonenko, and A. A. Matyushenko. "GRANULAR OSTEOPLASTIC MATERIALS BASED ON TRICALCIUM PHOSPHATE AND WOLLASTONITE." DYNAMICS OF SYSTEMS, MECHANISMS AND MACHINES 11, no. 3 (2023): 11–15. http://dx.doi.org/10.25206/2310-9793-2023-11-3-11-15.

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An important area of modern materials science is the development of synthetic materials for bone grafting, providing gradual restoration of damaged hard tissues. In this work, a series of ceramic granular materials with varying contents of tricalcium phosphate and wollastonite were obtained using emulsion technology. It is shown that the synthesized particles have a spherical shape, polydisperse composition (0.1 – 4 mm) and open porosity in the range of 50 – 56%. These characteristics will make it possible to use the developed materials in maxillofacial surgery, traumatology and orthopedics to
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21

Kompantsev, Dmitry, Anna Chahirova, Ruslan Yusupov, and Natalia Shabanova. "CREATING OSTEOPLASTIC MATERIALS TO REPAIR JAW BONES DEFECTS." Archiv Euromedica 10, no. 4 (2020): 163–66. http://dx.doi.org/10.35630/2199-885x/2020/10/4.36.

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In the course of our research we have developed a technology for fabricating an osteoplastic material from natural bone tissue. The obtained preparation in the form of gel contains hydroxyapatite, calcium triphosphate compounds and stimulators for regeneration. The proposed experimental material produces a stimulating effect on the growth of animal cell types; it enables to produce bioactive materials with increased biocompatibility. Application of the experimental gel facilitates the process of bone-tissue regeneration in the laboratory animals, which, in its turn, confirms the optimal compos
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22

Bozo, I. Ya, R. V. Deev, A. Yu Drobyshev, et al. "Efficacy of Gen-Activated Osteoplastic Material Based on Octacalcium Phosphate and Plasmid DNA containing vegf Gene for Critical-sized Bone Defects Substitution." Vestnik travmatologii i ortopedii imeni N.N. Priorova, no. 1 (March 30, 2015): 35–42. http://dx.doi.org/10.32414/0869-8678-2015-1-35-42.

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Gene-activated osteoplastic materials are a principally new class of medical devices for bone plasty. The purpose of the study was to evaluate the biological action of the material based on octacalcium phosphate and plasmid DNA containing vascular endothelial growth factor (VEGF) gene. Study material was implanted into 10 mm diameter rabbit parietal bone defects. Formation of bone regenerates around material granules even in the center of the defect and the presence of bone marrow in intertrabecular space on day 60 after implantation was detected. In control group of animals - implantation of
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23

Bozo, I. Ya, R. V. Deev, A. Yu Drobyshev, et al. "Efficacy of Gen-Activated Osteoplastic Material Based on Octacalcium Phosphate and Plasmid DNA containing vegf Gene for Critical-sized Bone Defects Substitution." N.N. Priorov Journal of Traumatology and Orthopedics 22, no. 1 (2015): 35–42. http://dx.doi.org/10.17816/vto201522135-42.

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Gene-activated osteoplastic materials are a principally new class of medical devices for bone plasty. The purpose of the study was to evaluate the biological action of the material based on octacalcium phosphate and plasmid DNA containing vascular endothelial growth factor (VEGF) gene. Study material was implanted into 10 mm diameter rabbit parietal bone defects. Formation of bone regenerates around material granules even in the center of the defect and the presence of bone marrow in intertrabecular space on day 60 after implantation was detected. In control group of animals - implantation of
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24

Shlykov, Mikhail A., Polina V. Smirnova, Anatoliy S. Senotov, et al. "Comparative Evaluation of Mathematical Model and In Vivo Study of Calcium Phosphate Bone Grafts." Journal of Functional Biomaterials 15, no. 12 (2024): 368. https://doi.org/10.3390/jfb15120368.

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One of the key factors of the interaction ‘osteoplastic material—organism’ is the state of the implant surface. Taking into account the fact that the equilibrium in regeneration conditions is reached only after the reparative histogenesis process is completed, the implant surface is constantly modified. This work is devoted to the numerical description of the dynamic bilateral material–medium interaction under close to physiological conditions, as well as to the assessment of the comparability of the model with in vitro and in vivo experimental results. The semi-empirical model obtained on the
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25

Legeros, R. Z. "Calcium Phosphate Materials in Restorative Dentistry: a Review." Advances in Dental Research 2, no. 1 (1988): 164–80. http://dx.doi.org/10.1177/08959374880020011101.

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This report deals with some of the calcium phosphate materials which are currently used in preventive and restorative dentistry and other calcium phosphate materials which have potential for dental and medical applications. Such materials include those which form calcium phosphate in situ (e.g., Bioglass ceramics and calcium phosphate cements) and those originating from natural materials (such as corals and bones). The reports on the development and current status of the calcium phosphate ceramics and glass ceramics presented here were based on recent reviews and recent evaluations of clinical
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26

LeGeros, Racquel Zapanta. "Calcium Phosphate-Based Osteoinductive Materials." Chemical Reviews 108, no. 11 (2008): 4742–53. http://dx.doi.org/10.1021/cr800427g.

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27

Chow, L. C. "Calcium Phosphate Materials: Reactor Response." Advances in Dental Research 2, no. 1 (1988): 181–86. http://dx.doi.org/10.1177/08959374880020011201.

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This provides information supplementing the discussions and conclusions given in the paper presented by Dr. R. Z. LeGeros. Some of the advantages and limitations of calcium phosphate materials as bone implants were discussed. Properties and potential applications of a new calcium phosphate setting cement were described.
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28

Lyashenko, Liliya I., Larysa M. Lobach, Vladymyr N. Petrushanko, Zoryana Y. Nazarenko, and Iryna M. Tkachenko. "APPLICATION OF ANTISEPTIC AND OSTEOPLASTIC DRUG FOR DESTRUCTIVE PERIODONTITIS TREATMENT." Wiadomości Lekarskie 72, no. 9 (2019): 1757–60. http://dx.doi.org/10.36740/wlek201909209.

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Introduction: Treatment of destructive forms of chronic periodontitis is extremely topical. Its relevance is associated with the features of treatment, which depends on the stage of the exacerbation process. The issue of the problem is also in the fact that the destructive seat of periodontitis is a source of chronic infection. The aim: The task of the research was to evaluate the conservative treatment of chronic destructive forms of periodontitis with a dental kit “Cupratin”, developed for professional usage in dental practice. Materials and methods: “Cupratin” is a complex medicament based
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29

Korenkov, O. "Regeneration of experimental long bone defect after implantation in its cavity of osteoplastic material “Calc-i-oss®”." Journal of Morphological Sciences 33, no. 02 (2016): 099–102. http://dx.doi.org/10.4322/jms.090215.

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Abstract Introduction: There is a significant divergence of data on the rate of resorption and replacement by the bone tissue of osteoplastic materials based on β-tricalcium phosphate in cancellous bone. At the same time in literature missing morphometric and electron microscopic features of bone tissue of the regenerate of compact substance of bone in these conditions. This study was aimed at the assessment of the healing of compact bone tissue defect after implantation of osteoplastic material “Calc-i-oss®” with the definition of the dynamics of resorption and morphological characteristics o
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30

Al-Sanabani, Jabr S., Ahmed A. Madfa, and Fadhel A. Al-Sanabani. "Application of Calcium Phosphate Materials in Dentistry." International Journal of Biomaterials 2013 (2013): 1–12. http://dx.doi.org/10.1155/2013/876132.

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Calcium phosphate materials are similar to bone in composition and in having bioactive and osteoconductive properties. Calcium phosphate materials in different forms, as cements, composites, and coatings, are used in many medical and dental applications. This paper reviews the applications of these materials in dentistry. It presents a brief history, dental applications, and methods for improving their mechanical properties. Notable research is highlighted regarding (1) application of calcium phosphate into various fields in dentistry; (2) improving mechanical properties of calcium phosphate;
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31

Kandić, Ljiljana, M. Mitrić, and N. Ignjatović. "XRD Analysis of Calcium Phosphate and Biocomposite Calcium Phosphate/Bioresorbable Polymer." Materials Science Forum 518 (July 2006): 507–12. http://dx.doi.org/10.4028/www.scientific.net/msf.518.507.

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Composite biomaterials based on calcium phosphate ceramic due to their high bioactivity are of interest for biological application and bone tissue repair. Structural and microstructural parameters of inorganic constituent of these materials are very important for the synthesis and characterization of composites. Quantitative and qualitative content, crystallite size of phases, as well as the degree of crystallinity have a great influence on the quality of composites, their application and bone tissue repair. X-ray diffractometry was employed to investigate the components of biocomposite materi
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32

Chelpanova, I. V. "Dynamics of regeneration following transplantation of octacalcium phosphate into an experimental defect in the rabbit mandibular bone: electron microscopic and morphometric study." Pathologia 21, no. 3 (2024): 244–52. https://doi.org/10.14739/2310-1237.2024.3.312862.

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The relevance of this research lies in the in-depth exploration of bone tissue remodeling dynamics following the creation of a defect and its filling with osteoplastic material. Despite the known results of osteoplastic materials application in clinical practice, complete and high-quality regeneration of the maxillofacial bone, its mechanisms and dynamics remain incompletely understood, requiring further clarification and detailed study. Aim. The aim of this study is to determine the dynamics of histoarchitectural changes in the bone-ceramic regenerate after transplantation of octacalcium phos
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33

Al-Sabri, Fuad Abdo Ali. "Application of Calcium Phosphate Materials in Dentistry: A Review." Thamar University Journal of Natural & Applied Sciences 4, no. 4 (2023): 1–19. http://dx.doi.org/10.59167/tujnas.v4i4.1287.

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Calcium phosphate materials are similar to bone in composition and having bioactive and osteoconductive properties. They have different forms, as cements, composites and coatings, which are used in many dental applications. This article reviews the latest update of their applications in dentistry the studies of improving the mechanical properties of these materials. Notable research is highlighted, regarding application of calcium phosphate into various fields in dentistry and improvement of their mechanical properties. This article deals with most common types of these materials including, ca
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34

Zagorodniy, N. V., V. I. Nuzhdin, I. A. Nikolaev, S. V. Kagramanov, and V. S. Komlev. "Osteoplastic Substitution of Acetabular Defects at Revision Hip Arthroplasty." N.N. Priorov Journal of Traumatology and Orthopedics 20, no. 4 (2013): 29–33. http://dx.doi.org/10.17816/vto20130429-33.

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First experience in application of synthetic and natural osteoconductive biocompatible materials of calcium orthophosphates that gradually resorb and are substituted by newly formed bone tissue is presented. Those osteoplastic materials were used in 11 patients aged 45–78 years at revision hip arthroplasty due to unstable acetabular component. According to W. Paprosky classification II A type of acetabular defect was diagnosed in 2 patients, II B type — in 2, II C type — in 3, III A type — in 3 and type III B — in 1 patient. Volume of used material was determined by the size of bone defect and
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35

Chen, Jieyi, Yuqing Zhang, Iris Xiaoxue Yin, Ollie Yiru Yu, Alice Kit Ying Chan, and Chun Hung Chu. "Preventing Dental Caries with Calcium-Based Materials: A Concise Review." Inorganics 12, no. 9 (2024): 253. http://dx.doi.org/10.3390/inorganics12090253.

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This concise review provides an update on the use of calcium-based materials for the prevention of dental caries. Some calcium-based materials promote remineralization and neutralize bacterial acids, disrupting cariogenic biofilms and inhibiting bacterial growth. Medical Subject Headings of [Dental Caries] and [Calcium] were adopted to search publications. Information related to the aim of this review was extracted and summarized. Common calcium-based materials are calcium phosphate, hydroxyapatite, calcium carbonate, calcium fluoride and casein phosphopeptide–amorphous calcium phosphate (CPP-
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36

Zyman, Z., M. Epple, A. Goncharenko, and D. Rokhmistrov. "Calcium phosphate ceramics with sodium-rich calcium phosphate phases at the surface." Materialwissenschaft und Werkstofftechnik 44, no. 2-3 (2013): 259–63. http://dx.doi.org/10.1002/mawe.201300095.

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37

Kaneno, Motoki, Kiyoko Sakamoto, Shunro Yamaguchi, and Katsuaki Suganuma. "Synthesis and Characterization of Calcium Phosphate-AMP Layered Materials." Key Engineering Materials 317-318 (August 2006): 769–72. http://dx.doi.org/10.4028/www.scientific.net/kem.317-318.769.

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Calcium phosphate-AMP layered material was synthesized by the hydrolysis of α−TCP in the presence of AMP at pH=6.2. The resulting composite was a mixture of DCPD and calcium phosphate-AMP layered material. The composition and structures of the calcium phosphate-AMP layered material were estimated based on elemental analysis, thermal analysis, and spectroscopic analyses. About 30 wt% of the composite comprises AMP, which is oriented in alternately layered structure of AMP and calcium phosphate layers. Furthermore, the composite showed better cell adhesion than DCPD.
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38

Kjellin, Per, Anand Kumar Rajasekharan, Fredrik Currie, and Paul Handa. "Investigation of calcium phosphate formation from calcium propionate and triethyl phosphate." Ceramics International 42, no. 12 (2016): 14061–65. http://dx.doi.org/10.1016/j.ceramint.2016.06.013.

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39

Ivanchenko, Liana A., and Nataliya D. Pinchuk. "Making Calcium Phosphate Biomaterials." Powder Metallurgy and Metal Ceramics 42, no. 7/8 (2003): 357–71. http://dx.doi.org/10.1023/b:pmmc.0000004155.75027.cc.

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40

Solonin, Yurii M., Lyudmila L. Kolomiets, Sergei M. Solonin, and Valerii V. Skorokhod. "Making Calcium Phosphate Biomaterials." Powder Metallurgy and Metal Ceramics 42, no. 7/8 (2003): 372–78. http://dx.doi.org/10.1023/b:pmmc.0000004156.63214.28.

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41

Liang, Chong, Zhaoyang Li, De’an Yang, Yuanyuan Li, Zi Yang, and William W. Lu. "Synthesis of calcium phosphate/calcium sulphate powder." Materials Chemistry and Physics 88, no. 2-3 (2004): 285–89. http://dx.doi.org/10.1016/j.matchemphys.2004.06.044.

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42

Kozelskaya, Anna I., Evgeny N. Bolbasov, Alexey S. Golovkin, et al. "Modification of the Ceramic Implant Surfaces from Zirconia by the Magnetron Sputtering of Different Calcium Phosphate Targets: A Comparative Study." Materials 11, no. 10 (2018): 1949. http://dx.doi.org/10.3390/ma11101949.

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In this study, thin calcium phosphate (Ca-P) coatings were deposited on zirconia substrates by radiofrequency (RF) magnetron sputtering using different calcium phosphate targets (calcium phosphate tribasic (CPT), hydroxyapatite (HA), calcium phosphate monobasic, calcium phosphate dibasic dehydrate (DCPD) and calcium pyrophosphate (CPP) powders). The sputtering of calcium phosphate monobasic and DCPD powders was carried out without an inert gas in the self-sustaining plasma mode. The physico-chemical, mechanical and biological properties of the coatings were investigated. Cell adhesion on the c
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43

Huy, Bui Quoc. "A STUDY FOR SYNTHESIS OF DICALCIUM PHOSPHATE FROM VARIOUS GRADES OF PHOSPHATIC MATERIALS." Vietnam Journal of Science and Technology 54, no. 5A (2018): 1. http://dx.doi.org/10.15625/2525-2518/54/5a/12055.

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Anhydrous dicalcium phosphate with monetite structure plays a significant biological importance for the mineralization of bones and teeth. This compound can reconstruct the hard tissues due to its high solubility in the body than other calcium phosphate compounds. Di calcium phosphate is being used as a food - additive supplying calcium and phosphate for humans and animals. Due to the high effective P2O5 content, this compound is also used efficiently as a slowly soluble fertilizer in agriculture for all soil and crop types. This paper presents results of synthesis of di calcium phosphate mone
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44

Miao, X., Y. Hu, J. Liu, and A. P. Wong. "Porous calcium phosphate ceramics prepared by coating polyurethane foams with calcium phosphate cements." Materials Letters 58, no. 3-4 (2004): 397–402. http://dx.doi.org/10.1016/s0167-577x(03)00510-x.

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45

RIBEIRO, THIAGO J., OMAR J. DE LIMA, EMERSON H. FARIA, et al. "Sol-gel as methodology to obtain bioactive materials." Anais da Academia Brasileira de Ciências 86, no. 1 (2014): 27–36. http://dx.doi.org/10.1590/0001-37652014106012.

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We employed the solgel methodology to obtain a silica matrix modified with calcium and phosphate ions. We prepared the matrix by hydrolysis and condensation of the precursors triethyl phosphate, calcium nitrate, and tetraethylorthosilicate, which were the sources of phosphate, calcium, and silicon, respectively. We dried and heattreated the samples at 110 or 900°C and placed them in simulated body fluid (SBF) for three days. We conducted scanning electron microscopy, Xray diffraction, and infrared spectroscopy analyses, which evidenced that the sample treated at 110°C contained calcium phospha
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46

Horiuchi, Shinya, Masahiro Hiasa, Akihiro Yasue, et al. "Fabrications of zinc-releasing biocement combining zinc calcium phosphate to calcium phosphate cement." Journal of the Mechanical Behavior of Biomedical Materials 29 (January 2014): 151–60. http://dx.doi.org/10.1016/j.jmbbm.2013.09.005.

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47

Jokanovic, Vukoman, Bozana Colovic, Marija Zivkovic-Sandic, Violeta Petrovic, and Slavoljub Zivkovic. "Calcium phosphate materials in bone tissue engineering." Serbian Dental Journal 61, no. 2 (2014): 93–101. http://dx.doi.org/10.2298/sgs1402093j.

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Calcium phosphates, together with polymers, are most commonly used materials in bone engineering since their composition is similar to bone. They are used to fulfill various defects caused by injury or bone disease, as well as for the preparation of endodontic mixtures. Because of their great importance in dentistry, these materials are given special attention in the current paper. This paper is a part of the monograph entitled ?Nanomedicine, the Greatest Challenge of the 21st Century?, which attracted great interest of technical and professional communities in different areas of medicine. Als
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Ioku, Koji, Masanobu Kamitakahara, Noriaki Watanabe, Osamu Kawaguchi, Setsuaki Murakami, and Tohru Ikeda. "Calcium Phosphate Porous Materials with Unique Microstructures." Key Engineering Materials 396-398 (October 2008): 645–48. http://dx.doi.org/10.4028/www.scientific.net/kem.396-398.645.

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Three types of calcium phosphate porous materials were prepared by the applied hydrothermal method. One of them was non-stoichiometric hydroxyapatite (HA) with calcium deficient composition and the others were β-tricalcium phosphate (β-TCP) and HA/β-TCP bi-phase material. Granules with several millimeter in size of calcium deficient HA, β-TCP and HA/β-TCP could be prepared. These granules with porosity over 70 % were composed of rod-shaped particles with aspect ratio about 10. Rod-shaped particles were locked together to make sub-micro-sized pores of about 0.1 to 0.5 µm in size. These material
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49

Li, Xiaoming, Jin Huang, and Yubo Fan. "Calcium Phosphate Materials for Bone Repair Application." Recent Patents on Biomedical Engineeringe 4, no. 2 (2011): 68–73. http://dx.doi.org/10.2174/1874764711104020068.

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50

Rodríguez-Lorenzo, Luis M., and Kārlis A. Gross. "Calcium Phosphate Porous Scaffolds from Natural Materials." Key Engineering Materials 254-256 (December 2003): 957–60. http://dx.doi.org/10.4028/www.scientific.net/kem.254-256.957.

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